Nutrient intakes of American infants and children fed cow's milk or infant formula

Between April 1984 and August 1984, a national survey, the Ross Laboratories Infant Nutrition Survey, was undertaken to assess patterns of food consumption of American infants ranging in age from 6.5 months to 13.4 months. Nutrient intakes of 865 infants were evaluated according to different foods (milk and milk products, non-iron-fortified formula, iron-fortified formula, infant cereal, commercial baby foods, and home-prepared table foods). Results indicated that most American infants consumed nutrients in appropriate amounts. However, a large proportion of infants who were fed a diet that included cow's milk received amounts of sodium, potassium, and chloride that exceeded the recommended safe and adequate ranges. The median intake of iron of infants fed either cow's milk or a non-iron-fortified formula was below the recommended dietary allowance; a low percentage of these infants received medicinal iron supplementation. The results also indicated that the median estimated renal solute load of the diet of infants fed cow's milk was approximately twice the amount of that of infants fed formula. These data may be useful in the development of nutritional programs for older infants.     

Protein hydrolysate formula maintains homeostasis of plasma amino acids in preterm infants.

BACKGROUND: Plasma amino acid concentrations were measured in preterm infants who were fed either a new hydrolyzed cow's milk protein formula or a standard preterm infant formula. It was hypothesized that feeding with the hydrolysate results in preprandial amino acid concentrations that are significantly different from the concentrations found when feeding with the standard formula. METHODS: Fifteen preterm infants, median gestational age, 29 weeks (range, 24-32 weeks); birth weight, 1241 g (range, 660-1900 g); and postnatal age, 18 days (range, 7-54 days) receiving full enteral feedings (>150 ml/kg x day), were enrolled. The intervention was randomized allocation to the formula with hydrolyzed or natural cow's milk protein (the whey/casein ratio was 60:40 in both formulas). In a crossover design, each formula was fed for 5 days, and plasma amino acids were analyzed on day 4 or 5 of each 5-day period. RESULTS: In spite of the 12% higher amino acid intake with hydrolysate formula, the median individual plasma amino acid concentrations were virtually identical with both formulas, and they were within the 10th and the 90th percentile of the reference of levels in the umbilical cord artery after elective cesarean delivery or of breast-fed newborn infants. The median concentrations of lysine and aspartic acid were higher with hydrolyzed formula feeding (p<0.05; two-tailed Mann-Whitney test). With both formulas, single amino acid concentrations were out of the reference values. CONCLUSION: Virtually identical plasma amino acid concentration patterns were measured with the new hydrolyzed preterm infant formula and the standard preterm infant formula, but longitudinal studies are required before the studied protein hydrolysate can be recommended for preterm feeding in general.     

Progress in the Prevention of Iron Deficiency in Infants

ABSTRACT. Our present success in preventing iron deficiency in infants is based on a gradual growth in our understanding of iron nutrition. It became recognized that full term infants only become vulnerable to iron deficiency after about 5 months of age, and to a lesser degree if they are breast-fed. The specific foods in which iron is provided during infancy were found to be more important in determining iron absorption than the actual amount of iron in the diet. Experience has also shown that fortification of infant foods is more reliable and cost effective than providing iron medication. Our current approaches to preventing iron deficiency in infants include: 1) maintaining breast feeding for at least 6 months, if possible; 2) using an iron-fortified infant formula if a formula is used and using formula in preference to cow's milk; 3) using iron-fortified infant cereal as one of the first solid foods; and 4) providing supplemental iron for low birth weight infants.     

Vitamin E status in preterm infants fed human milk or infant formula

Vitamin E status was assessed in 36 infants with birth weights less than 1500 gm who were assigned randomly to receive one of three sources of nutrition: milk obtained from mothers of preterm infants (preterm milk), mature human milk, or infant formula. Infants in each dietary group were further assigned randomly to receive iron supplementation (2 mg/kg/day) beginning at 2 weeks or to receive no iron supplementation. All infants received a standard multivitamin, providing 4.1 mg alpha-tocopherol daily. Serum vitamin E concentrations at 6 weeks were significantly related both to type of milk (P less than 0.0001) and to iron supplementation (P less than 0.05). Infants fed preterm milk had significantly higher serum vitamin E levels than did infants fed mature human milk, and both groups had significantly higher levels than did those fed formula. Ratios of serum vitamin E/total lipid were also significantly greater for infants fed human milks than for those fed formula. The addition of iron to all three diets resulted in significantly lower serum vitamin E levels at 6 weeks (P less than 0.05); however, only in the group fed formula was there evidence of vitamin E deficiency. Preterm milk with routine multivitamin supplementation uniformly resulted in vitamin E sufficiency in VLBW infants whether or not iron was administered.     

Fat absorption in preterm infants fed a taurine-enriched formula

An adapted cow's milk infant formula without or with extra taurine (350 μmol/l) was fed to four and five infants, respectively. The infants, born after 28–32 weeks gestation, and initially fed with a starting formula for preterms, were switched to one of the two above-mentioned formulae at approximately the 16th day of life. Each infant was studied during 4 consecutive weeks. The faecal excretion of fat, energy and total bile acids was determined from 3-day stool collections each week. The addition of taurine to the infant formula neither improved the uptake of fat and energy nor changed the faecal bile acid excretion. Growth velocity was similar in both groups of infants. Based on these results there is no rationale for adding taurine to adapted cow's milk infant formula to obtain a better fat absorption.     

Manganese absorption from human milk, cow's milk, and infant formulas in humans

Manganese absorption from human milk, cow's milk, and infant formulas was studied in humans by using extrinsic labeling of the diets with manganese 54 or manganese 52 and whole-body retention measurements. The fractional manganese absorption from human milk (8.2% +/- 2.9%) was significantly different when compared with cow's milk (2.4% +/- 1.7%), soy formula (0.7% +/- 0.2%), and whey-preponderant cow's milk formula with 12 mg/L of iron (1.7% +/- 1.0%) and without iron fortification (2 mg/L of iron) (3.1% +/- 2.8%), while no significant difference was observed between a whey-preponderant cow's milk formula with 7 mg/L of iron (5.9% +/- 4.8%) and human milk. The total amount of absorbed manganese was significantly higher from the non--iron-fortified cow's milk formula (2 mg/L of iron) as compared with human milk, while no significant differences were observed for the other milks and formulas.     

Nutrient intakes of formula-fed infants and infants fed cow's milk

Twenty-four-hour dietary intake data from the second National Health and Nutrition Examination Survey (NHANES II), 1976-1980, were analyzed to compare nutrient intakes among infants 7 to 12 months of age who were fed mixed diets containing solid foods and either infant formula or cow's milk. Solid foods fed to the infants in both groups were low in iron and linoleic acid, and high in sodium, potassium, and protein, relative to Recommended Dietary Allowances. Infants who were fed cow's milk received lower median intakes of iron (7.8 mg v 14.9 mg), linoleic acid (1.8 g v 6.1 g), and vitamin C (39 mg v 64 mg), and higher median intakes of protein (41 g v 25 g), sodium (1,000 mg v 580 mg), and potassium (1,630 mg v 1,020 mg) than formula-fed infants. Seventy-five percent of the infants fed cow's milk had iron intakes below the Recommended Dietary Allowance; 69% had sodium intakes above the range of estimated safe and adequate daily dietary intake. Linoleic acid provided less than 3% of energy intake for 74% of the infants fed cow's milk. Differences in nutrient intakes were due not only to different concentrations of nutrients in each of the milk feedings but also to the different amounts and types of solid foods fed to the two groups of infants.     

Clinical zinc deficiency during zinc-supplemented formula

A 2 1/2-month old preterm infant had failure to gain weight with high caloric intake, and had generalized persistent dermatitis and mild diarrhea. The patient was being fed zinc-supplemented cow's-milk-based formula (Osterfeed). High caloric intake of 8 weeks' and topical treatment of 11 weeks' duration were futile. A thorough investigation revealed low serum zinc concentration. Administration of zinc sulfate 150 mg/day resulted in brisk weight gain and complete clearing of skin lesions. The infant maintained normal levels of zinc 4 months after zinc therapy was discontinued, while being fed unmodified cow's milk and a diet of corn flour. The probability that zinc-supplemented formulas do not meet the high zinc requirements of premature infants is raised. The importance of plasma or serum zinc examination in preterm infants with slow growth velocity or failure to gain weight despite adequate caloric intake, with or without skin lesions and diarrhea, is emphasized.     

Vitamin D deficiency rickets due to soybean milk

We describe vitamin D deficiency rickets in an infant nursed with soybean milk (not specifically designed for infants) instead of cow's milk-based infant formula. Symptoms included irritability and carpopedal spasm when crying. The infant's condition improved with nutrition by vitamin-enriched cow's milk-based infant formula, oral administration 1 alpha-hydroxy vitamin D3 and exposure to sunlight. Content analysis of the milk showed very low calcium, phosphate, magnesium and vitamin D levels compared to cow's milk-based infant milk formulas. This case highlights the unsuitability of soybean milk as the sole provider of infant nutrition and demonstrates the false perception that soybean milk is a healthy food for infants. It is necessary to be cautious about not only health claims for soybean milk, but also today's health and natural food booms. Social enlightenment and correction of such misperceptions are necessary.     

Iron status and infant feeding practices in an urban ambulatory center

The relationship of infant feeding practices to iron status was examined in a group of 280 infants, 9 to 12 months of age, attending a "well-baby" clinic. Of this group, 7.6% were found to be iron depleted, 19.7% were iron deficient without anemia, and 8.2% were iron deficient with anemia. The incidence of iron-deficiency anemia was significantly greater in the black infants than the white infants (14.3% v 2.7%). The introduction of whole cow's milk into the diet had occurred prior to 6 months of age in 29.2% of the infants, and 62.1% of these infants had laboratory evidence of nutritional iron inadequacy, as contrasted with only 21.8% of those with iron deficiencies fed cow's milk after 6 months of age. Of the 21 infants with iron-deficiency anemia, 19 (90.5%) had been fed whole cow's milk prior to 6 months of age. Iron deficiency remains a nutritional problem for infants in an urban setting and is largely a result of the early introduction of whole cow's milk into the diet.     

Type of milk feeding in infants and young children up to 19 months of age in three Socio-economic groups in Madrid

The feeding practices of 344 children in Madrid between 3 and 19 months were investigated by controlled interview or their mothers of care-takers. Four different types of milk were given to the children: human milk, infant formula, follow-on formula and cow's milk. Three periods could be defined when infants were most likely to change from one milk type to another. The majority of babies changed from human milk to infant formula some time in the first three months of life. At between four and six months, about half the sample changed to a follow-on formula and, finally, around the baby's first year formula was substituted for cow's milk. Differences in feeding behaviour could be observed among Socio-economic groups, but were not statistically significant. Feeding patterns closely followed international recommendations for infant feeding.     

THE METABOLIC CONSEQUENCES OF HUMAN MILK AND FORMULA FEEDING IN PREMATURE INFANTS

Abstract. Schultz, K., Soltész, G. and Mestyán, J. (Department of Paediatrics, University Medical School, Pécs, Hungary). The metabolic consequences of human milk and formula feeding in premature infants. Acta Paediatr Scand, 69: 647, 1980.—Twenty premature low-birthweight infants were divided into two groups and assigned randomly to either a pooled human milk or to a cow's milk based infant formula feeding regimen. The protein intake was 2.0 g/kg/day in the human milk fed group and 4.4 g/kg/day in the formula fed group of infants. The concentrations of different metabolites were estimated at weekly intervals, and plasma amino acid analysis was performed biweekly on blood samples in the two groups of infants during the four-week study period. Formula milk fed infants had significantly lower fasting blood glucose levels and developed azotaemia, hyperaminoacidemia and metabolic acidosis in the early weeks of postnatal life. Blood lactate and plasma free fatty acid concentrations did not change significantly in the two groups during the study. No significant differences were found in the rate of weight gain between the two groups of infants, although formula fed infants regained their birthweight more slowly than human milk fed infants. High protein formula feeding causes potentially unfavorable metabolic and amino acid imbalances in preterm infants in the early postnatal life.     

Clinical experience with preterm formulas in very low birthweight infants

Infants below 1500 g at birth were randomly assigned to receive one of two preterm infant formulars: S26 Low Birthweight (S26-LBW, 25 infants) or Enfalac Premature (EPF, 24 infants). They were either exclusively formula-fed (13 infants) or the formula was used to supplement their own mother's fresh breast milk (36 infants). The mean age when milk feeds were commenced was 7 days and the mean age when birthweight was regained was 12 days. The mean age when 2000 g was reached was 45 days at which time 10 (20%) infants were below the tenth centile on the intrauterine growth chart. None of the above variables were significantly different between the S26-LBW and EPF groups. However, the S26-LBW group established full enteral feeding significantly earlier compared to the EPF group (42 versus 64 d) and the number with adverse gastrointestinal effects was lower (4 versus 10 infants). Both preterm infant formulas supported a growth rate in excess of that in utero without stressing the infants' metabolic system. The growth rate of infants fed preterm breast milk supplemented with preterm infant formula was quantitatively similar to those exclusively fed preterm infant formula.     

Iron fortification of infant milk formula: the effect on iron status and immune function.

We conducted a randomized double-blind trial of a cow's milk infant formula with increased iron fortification in order to confirm its safety and to measure its effects on iron status and immune function. A group of full-term, well nourished and healthy infants was followed from the age of 3 months to 1 year. A control group of 74 infants was given a commercially available infant formula containing 8.3 mg Fe/100g. The test group of 75 infants received a similar formula with 40 mg Fe/100 g. The formula with the extra iron proved to be safe and, when compared with the control group, the children in the test group had significantly improved iron status as reflected by the proportion of children classed as normal (25 of 61 cf. 44 of 65; p less than 0.003), and by the mean values of the haemoglobin concentration (11.5 cf. 11.9 g/dl; p = 0.04), red cell distribution width (15.5% cf. 14.4%; p = 0.0005), red cell zinc protoporphyrin (3.4 cf. 4.0 micrograms/g Hb; p = 0.04) and ferritin (29 cf. 17.3 micrograms/l; p = 0.004). The extra iron fortification depressed zinc concentration in plasma (90.6 cf. 83.5 micrograms/l; p = 0.05). There was no significant difference between the two groups for laboratory measures of immune function or for incidence of infection. No adverse effects such as infection could be attributed to the increased iron. We conclude that iron fortification of cow's milk infant formula may be safely increased to 40 mg/100 g (i.e. by a factor of 4.8 over the common concentration of 8.3 mg/100 g), but that this has less than the expected effect on iron status. Further studies are required to define (a) the long-term role of facilitators of iron absorption such as ascorbic acid, (b) the interaction of iron with absorption of divalent trace elements such as zinc, and (c) the effect of iron status on immune function and susceptibility to infection.     

Role of prolonged breast feeding in infant growth

The growth of 238 healthy full-term infants was followed under a carefully monitored nutritional protocol during the first year of life. The infants were weaned at different ages either to a proprietary infant milk formula or to a home-prepared cow's milk formula. Solid foods were introduced at 3.5 months of age. The 56 infants who were breast-fed for a period of at least 6 months were compared to infants weaned prior to one month of age to one of the two milk regimens. In the breast-fed infants, the weight, weight-for-height-age, and skinfold thickness were similar to values in the proprietary formula-fed infants but were lower than the corresponding values in the cow's milk-fed infants at 6 months of age and subsequently. By using weight-for-height-age as a criterion, no obesity was found among any of the 238 infants, and only 1.7% were considered to be overweight. The results indicate that present recommendations for infant feeding in Finland--including prolonged breast feeding, the use of proprietary milk formulas after weaning, and later introduction of solid foods--prevent overnutrition.     

The significance of iron in development and nutrition of infants. II. Prevention of iron deficiency

The symptoms and consequences of iron deficiency in the child are described as found in the literature. The role of iron in immune processes is presented and it is noted that there is no proof for the theory of the development of bacterial infections as a result of giving oral iron supplements. The influence of breast milk and cow milk on the intestinal uptake and loss of iron is discussed. Feeding infants formulae or milk-substitute formulae after cessation of breastfeeding prevents the increased blood loss in the digestive tract, which results from the introduction of cow's milk. The iron content of selected Polish infant formulae, follow-on formulae and milk-substitute formulae available on the market are given and compared with FAO, WHO, ESPGAN and EC recommendations. Results of the authors' own researches on the iron content of selected Polish powdered whole cow's milks are presented. The measurements, made by atomic absorption spectroscopy (AAS), showed that iron content of whole powdered milks ranged from 0.23 to 1.19 mg/dm3. The values do not vary significantly from those in the literature on the iron content of unboiled cow's milk. It is shown that up to the point of the doubling of birth weight, formula-fed infants should be fed modified milk containing at least 2 mg/dm3 of iron. Thereafter infants should receive milk containing at least 7 mg/dm3 of iron.     

ROLE OF PROLONGED BREAST FEEDING IN INFANT GROWTH

Abstract. The growth of 238 healthy full-term infants was followed under a carefully monitored nutritional protocol during the first year of life. The infants were weaned at different ages either to a proprietary infant milk formula or to a home-prepared cow's milk formula. Solid foods were introduced at 3.5 months of age. The 56 infants who were breast-fed for a period of at least 6 months were compared to infants weaned prior to one month of age to one of the two milk regimens. In the breast-fed infants, the weight, weight-for-height-age, and skinfold thickness were similar to values in the proprietary formula-fed infants but were lower than the corresponding values in the cow's milk-fed infants at 6 months of age and subsequently. By using weight-for-height-age as a criterion, no obesity was found among any of the 238 infants, and only 1.7% were considered to be overweight. The results indicate that present recommendations for infant feeding in Finland—including prolonged breast feeding, the use of proprietary milk formulas after weaning, and later introduction of solid foods—prevent over-nutrition.     

Serum ferritin in term and preterm infants

Serum ferritin levels were examined in maternal serum, In cord sera and at one, four, eight and twelve weeks in 19 term and 28 preterm infants. There was no correlation between maternal and cord ferritin levels. Mean serum ferritin concentration was lower in preterm infants, and both term and preterm Infants exhibited' an initial rise in serum ferritin concentration followed by a steady fall. Serum ferritin concentration showed a good correlation with calculated iron stores at twelve weeks of age suggesting that serum ferritin estimation is the method of choice for monitoring body iron stores in infants. No correlation was found between serum ferritin concentration and calculated iron intake at any age in either term or preterm infants. It is suggested that iron supplementation additional to that present in modified cow's milk is not necessary for the first twelve weeks of life in either term or preterm infants.     

水解蛋白婴儿配方研究进展

牛奶过敏足婴幼儿最主要的食物过敏类型,1岁以内婴幼儿大约有2.5%的人群表现牛奶过敏.以天然牛奶蛋白为基础的水解蛋白配方,其变应原性降低,其中部分水解蛋白配方(pHF)可诱导口服免疫耐受,主要用于预防婴儿食物过敏和特应性皮炎;深度水解配方主要用于治疗婴儿牛奶过敏;严重牛奶过敏导致生长发育障碍的患儿,应用氨基酸配方治疗.     

Iron balance and iron nutrition in infancy

At birth, the total body iron content is approximately 75 mg/kg, twice that of an adult man in relation to weight. During the first 6 mo of life, total iron body content increases slightly and exclusive breastfeeding is sufficient to maintain an optimal iron balance. Thereafter, iron body content substantially increases and the infant becomes critically dependent on dietary iron, provided by complementary foods. Numerous factors may contribute to nutritional iron deficiency in infancy, the most important being low body iron content at birth, blood loss, high postnatal growth rate, and a low amount and/or bioavailability of dietary iron. We have documented that the prevalence of iron deficiency declined in Italy as iron nutrition improved and that early feeding on fresh cow's milk is the single most important determinant of iron deficiency in infancy. Healthy full-term infants should maintain optimal iron balance by consuming a good diet, which can be summarized as follows: breastfeeding should be continued exclusively for at least 5 mo and then together with complementary foods containing highly bioavailable iron; infants who are not breastfed or are partially breastfed should receive an iron-fortified formula, containing between 4.0 and 8.0mg/L iron, from birth to 12 mo of age; fresh cow's milk should be avoided before 12 mo of age.